InfoComm 2017 In The Rear View Mirror

InfoComm 2017 has come and gone, and left us with lots to think about.

For me, this year’s show was hectic, to say the least. I presented my annual Future Trends talk on Tuesday to kick off the Emerging Trends session, then conducted a 3-hour workshop on RF and wireless that afternoon to the largest crowd I’ve ever had for the class. (It may be the largest crowd I ever get as I’m thinking of shelving this class.)

Bright and early on Wednesday morning, I taught a 2-hour class  on AV-over-IT (the correct term; you could also use “AV-with-IP”) to a full house. There were even some folks standing in the back of the room. I guessed at least 200 were in attendance.

Thursday morning found me back in the same space, talking about 4K and Ultra HDTV to a smaller crowd (maybe not as “hot” a topic?) and urging them to set their BS meters to “high” when they headed to the show floor to talk to manufacturers about 4K-compatible/ready/friendly products.

With other presentation commitments, it worked out to nearly 15 hours standing in front of crowds and talking. Tiring to say the least, but I did get a ton of great follow-up questions after each session. People were paying attention!

AV-over-IT was a BIG theme at InfoComm, and it was hard to miss.

Mitsubishi had a very nice fine-pitch LED display at the show – one of the few that are not built in China.

The migration to using TCP/IP networks to transport video and audio instead of buying and installing ever-larger and more complex HDMI switchers and DAs is definitely catching steam. My colleagues and I have only been talking about this for over a decade and it’s rewarding to see that both manufacturers and end-users are buying in.

And why not? Computer hardware couldn’t get much cheaper. For my AV/IT demo, I was streaming a local TV station, broadcasting in the 720p HD format, using an H.264 AVC encoder/decoder pair running through a 1GigE NetGear managed switch. The streaming rates were in the range of 15 – 18 Mb/s, so I had plenty of headroom.

It worked like a champ. I was able to show how adjusting the group of pictures (GOP) length affected latency, along with the effects of constant bitrate (CBR) vs. variable bitrate (VBR) encoding. If I could have dug the gear up in time, I would have demonstrated UHD content through a 10 Gb/s switch – same principles, just a faster network.

I saw more companies than ever this year showing some sort of AV-over-IT solution. (Almost as many as those showing LED walls!) Lots of encoders and decoders, using H.264, Motion JPEG, and JPEG2000 formats; connected through fast switches and driving everything from televisions to projectors.

If it’s REALLY happening this time, then this is BIG. Migration to AV-over-IT is a big shot across the bow of companies that sell large HDMI-based matrix switches, not to mention distribution amplifiers and signal extenders – both made obsolete by this new technology. With AV on a network, all you need is a fast switch and a bunch of category cable. For longer runs, just run optical fiber connections to SPF fiber connections on the switch.

LG showed off its unique curved OLED displays – and they’re dual-sided.

Meanwhile, Samsung unveiled the first digital signage monitors to use quantum dot backlight technology for high dynamic range and wide color gamuts.

Hand-in-hand with this migration to an IT-based delivery system is a steady decline in the price of hardware, which has impacted the consumer electronics industry even harder. Consider that you can now buy a 65-inch Ultra HDTV (4K) with “smart” capabilities and support for basic high dynamic range video for about $800.

That’s even more amazing when you consider that the first Ultra HD displays arrived on our shores in 2012 with steep price tags around $20,000. But the nexus of the display industry has moved to mainland China, creating an excess of manufacturing capacity and causing wholesale and retail prices to plummet.

There is no better example of China’s impact on the display market than LED display tiles and walls. These products have migrated from expensive, coarse-resolution models to super-bright thin tiles with dot pitches below 1 millimeter – about the same pitch as a 50-inch plasma monitor two decades ago.

Talk to projector manufacturers and they’ll tell you that LED displays have cut heavily into their business, especially high-brightness projectors for large venues. LED wall manufacturers were prominent at the show, and some are hiring industry veterans to run their sales and marketing operations; removing a potential barrier to sales in this country by presenting potential customers with familiar faces.

Panasonic showed there are still plenty of applications for projection, especially on curved surfaces.

Absen is an up-and-coming LED brand, and they’re hiring veterans of the U.S. AV market to push sales along.

At the other end, large and inexpensive LCD displays with Full HD resolution have killed off much of the “hang and bang” projector business, and large panels with Ultra HD resolution are now popping up in sizes as large as 98 inches. The way things are going in Asia, Full HD panel production may disappear completely by the end of the decade as everyone shifts to Ultra HD panel production.

Even the newest HDR imaging technology – quantum dots – made an appearance in Orlando in a line of commercial monitors with UHD resolution. Considering that QD-equipped televisions have only been around for a couple of years, that’s an amazingly accelerated timeline. But compressed timelines between introduction and implementation are the norm nowadays.

This was my 24th consecutive InfoComm and the 21st show (so far as I can remember) where I taught at least one class. When I went to my first show in Anaheim, CRT projectors were still in use, a ‘bright’ light valve projector could generate maybe 2000 lumens, LCD projectors cost ten grand and weighed 30 pounds, and composite video and VGA resolution ruled the day. RS232 was used to control everything and stereo was about as ‘multichannel’ as audio got.

All of that has passed into oblivion (except for RS232 and VGA connectors) as we continue to blow by resolution, size, speed, and storage benchmarks. The transition to networked AV will result in even more gear being hauled off to recycling yards, as will advances in wireless high-bandwidth technology, flexible displays, cloud media storage and delivery, and object-based control systems.

Can’t wait for #25…